U18EET3002 ELECTROMAGNETIC FIELDS

Syllabus

Tutorial

Assignment

Other University Materials

Lecture Materials

REVIEW OF VECTOR CALCULUS
1 Scalar and Vectors
2 Cartesian Coordinate Systems
3 Cylindrical Coordinate Systems
4 Spherical Coordinate Systems
5 Vector Multiplication – Dot Product
6 Vector Multiplication – Cross Product
7 Vector Transformation
8 Line Integrals
9 Divergence Theorem
ELECTROSTATIC FIELDS
10 Coulomb’s law
11 Electric Field Intensity
12 Electric Flux Density
13 Gauss Law – Applications
14 Electric Potential, Work and Energy
15 Electric Potential 1
16 Electric Potential 2
17 Equipotential Surfaces
18 Electric Dipole
CONDUCTORS, DIELECTRICS AND CAPACITANCE
19 Current and Current Density
20 Conductors and Ohms Law
21 Dielectrics
22 Dielectric Materials – Polarization
23 Boundary Conditions
24 Capacitors
25 Poisson’s and Laplace’s equation
MAGNETOSTATIC FIELDS
26 Magneto statics
27 Biot Savart Law
28 Amperes Circuital Law
29 Magnetic Flux and Flux density
30 Magnetic Scalar and Vector Potentials
MAGNETIC FORCES AND INDUCTANCE
31 Magnetic Forces
32 Magnetic Torque and Dipole
33 Magnetic Materials
34 Magnetic Boundary Conditions
35 Magnetic Circuits
36 Inductance
37 Magnetic Energy
MAXWELL’S EQUATIONS AND ELECTROMAGNETIC WAVES
38 Faraday’s Law and Lenz Law
39 Displacement Current
40 Time Varying Electric and Magnetic Fields
41 Time Varying – Maxwell Equation & Conditions
42 Retarded Potentials
43 Wave Equation
44 Wave Equation in Different Medium
45 Poynting vector and Poynting theorem
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